ESD Protective Device: IMSA-683-1A Features - Ultra low capacitance - Extremely fast response time - Low Peak voltage - High withstanding - Bi-directional SMD package - Lead (Pb) free, RoHS compliant PACKAGE SIZE (mm/inch): 15 / 42 Description IRISO s ESD (Electro Static Discharge) Protector offers the best ESD solution for protecting sensitive electronic devices. This device consists of a passive discharge component on a micro-gap, and the size is small and thin like a chip resistor. This device, a type of discharge suppressor, works as a short circuit without delay during an ESD event, and works as an open circuit without capacitance at the normal state. In addition to other 2 items, 681-1B & 682-1A, 683-1A is smaller size:15 also offers hi-reliability and more hi-protective ability than existing ones. Applications - RF signal lines: Antenna inputs of FM-AM radio, TV and Car Navigation systems with GPS. - Hi-speed Digital interface: LVDS or TMDS systems of IEEE1394, USB2., Giga-bit Ethernet and DVI and Hi-speed Digital Audio-Video interface for Hi-vision display such as HDMI. - Hi-impedance and delicate signal lines: CMOS inputs for digital or analog devices and Hi-Fi Audio, etc. SCHEMATIC DIAGRAM Electric Characteristics Item (symbol) Units Min Typ Max Conditions & Remarks Rating voltage (VDC) V -- -- 2 / 14 Normal state DC / AC (rms) continuous voltage Trigger voltage (Vt) V 25 35 ESD measured by TLP method * 3, Fig2 Peak voltage (Vp) V 35 6 Peak current (Ip) A 2 32 Clamping voltage (VC) V 5 1 measured by IEC method * 1, Fig1 measured by IEC method * 2, Fig1 Insulation Resistance (Ri) OHM 1M -- -- Normal state at 2VDC, Fig3 Capacitance (CS) pf.11.15 1VAC, at1mhz ESD pulse withstanding pulses -- -- 2 ESD measured by IEC method * 1, Fig1 ESD voltage capability kv 15 IEC method, Air discharge * 1, Fig1 Operating temperature C -4 -- +15 *1) IEC61-4-2 (15pF/33ohms), 15kV, Air discharge at first time pulse injection. *2) IEC61-4-2, 15kV, Air discharge (The voltage is measured at 3nsec after the ESD pulse injections.) *3) TLP (Transmission Line Pulse) generator, or INS. 1V spacing contact pulse injection, 1nsec square waveform (The voltage is measured at current flow of over 5A at first time.) Environmental test characteristics - Heat resistance: +125 C, 1 hours - Cold resistance: -55 C, 1 hours - Humidity resistance: +6 C, 9-95%RH, 1 hours (under DC15V applied) - Thermal shock resistance: -4 C / +15 C (1cycle=1 hour, 3minnutes each), 1cycles - Soldering resistance: +26 C, 1sec (Reflow soldering) Ordering information Sales type Packing type Remarks IMSA-683-1A --- (discrete) Evaluation samples only IMSA-683-1Y9 TAPE&REEL 1,pcs/REEL August 21 IRISO ELECTRONICS CO., LTD. 1/6
IMSA-683-1A Characteristics curves & data (reference) V&I waveforms in time domain (real typical waveform sample) V-I Characteristics OFF to ON-state (V-I plane view of real V&I) Current & Voltage vs time (683-1A) V-I Glaph -18ns (683-1A) Voltage (V) 8 7 6 5 4 3 2 Ip Vp IEC61-4-2 15kV AirDischarge Voltage Current 4 3 2 1-1 -2 Current (A) Current (A) 4 3 2 1-1 -2 -Vp Ip IEC61-4-2 15kV AirDischarge 36nsec V-I -(V-I) 18nsec Vp nsec 1 Vc -4-2 2 4 6 8 1 12 14 16 18 time (nsec) This real voltage waveform shows a typical example of air-discharge test including some noise form ESD simulator itself just before discharge, and including variations by air-discharge approximately 1%. -3-3 -Ip -4-6 -4-2 2 4 6 Voltage (V) This typical V-I curve shows transition of a real current and voltage during ESD term. ESD protector also works in negative area complet -ely same as positive area if discharge test condition is same. Peak Voltage & Current vs Number of ESD pulses Transition of Resistance at ON-state (calculated form real V&I) No. of ESD vs PEAK VOLTAGE & CURRENT (683-1A) Ron vs time (683-1A) 9 IEC61-4-2 15kV Air discharge 5 1 IEC61-4-2 15kV AirDischarge Peak Voltage(V) 8 7 6 5 4 3 2 1 Vp MAX. Vp AVE. -2 Vp MIN. Ip MAX. Ip AVE. -3 Ip MIN. -4 5 1 15 2 No. of ESD(pulses) 4 3 2 1-1 Peak Current (A) Ron (OHM) Ron 1 1 1 1.1 2 4 6 8 1 12 14 16 18 time (nsec) Trigger Voltage range by TLP No. of ESD pulses vs Max. Leakage Current Trigger Voltage by TLP (683-1A) No. of Puleses vs Max Leakage Current 1 9 8 86 1.E-2 1.E-3 2uA LC Max No. of pcs (%) 7 6 5 4 3 55 Current(A) 1.E-4 1.E-5 1.E-6 1.E-7 2 1.E-8 1 1 <2 2-249 25-299 3-349 35< Input voltage range (V), 1V spacing 1.E-9 5 1 15 2 No. of Pulses This trigger voltage, measured by TLP method using Impulse Noise Simulator (INS), is more accurate than air-discharge. The input pulse is 1nsec width of a square-waveform, 1V spacing rise. The LC limit value is 2uA (=2V/1Mohms). Total number of pulse i s 4, times (=2sample x 2pulses each) 2/6 August 21 IRISO ELECTRONICS CO., LTD.
IMSA-683-1A Capacitance dispersion range (at 1MHz) Frequency Response at High-Frequency range Capacitance distribution chart (683-1A) Insertion Loss (683-1A) 45 5 No of pcs (%) 4 35 3 25 2 15 1 5 39 1V, 1MHz 36 22 1 2.8-.9.9-.1.1-.11.11-.12.12-.13.13-.14.14-.15 Cs (pf) Response(dB) 4 Cs=.11pF 3 2 1-1 -2-3 -4-5..1 1. 1. 1. Frequency(GHz) The capacitance value at 1GHz range is also same as 1MHz range. Fig. 1 ESD test circuit for Peak Voltage & Current Air Discharge R charge V charge 15kV 33 ohm 15 pf DUT I V V 5 ohm ESD simulator part Measurement fixture & DUT Fig. 2 ESD test circuit for Trigger Voltage Transmission Line 5 ohm INS Variable voltage 1ns width I=V DUT V I 1 ohm ATT 5 ohm 1:1 V V Fig. 3 ESD test circuit for Leakage Current and Insulation Resistance I L A Ri=2(V) / I L (A) DC2 DUT TLP part Measurement fixture & DUT Ultra High Resistance Meter May 21 IRISO ELECTRONICS CO., LTD. 3/6
IMSA-683-1A Materials CONSTRUCTIONS - Base : Ceramics - Terminal finish : Tin (Sn) with Nickel (Ni) base plating - ESD element : IRISO original composite - Overcoat : Epoxy resin - Weight:.54mg (typical) Mechanical data 1.6 1..6.8.4.5 DIMENSIONS (mm) FOOT PRINT (mm) FEED DIRECTION FEED DIRECTION Materials 1. COVER TAPE : PET 2. CARRIER TAPE : PAPER 3. BOTTOM TAPE : PAPER 4. REEL : POLYSTYRENE (PS) TAPE & REEL SHIPMENT (1,pcs / Reel) 4/6 May 21 IRISO ELECTRONICS CO., LTD.
IMSA-683-1A Application Notes (681-1B, 682-1A & 683-1A) 1. Device implementation (PCB layout) - No orientation marking on the ESD device is required because of bi-directional and symmetrical. - Just Install form signal line to ground regardless of the ESD polarity. - At normal state, the device does not affect signals on the circuit because of ultra low capacitance and very high isolation resistance. - For the better performance of the device, it is recommended to place the device close to the signal input, prior to any other components. - The protective level is better when the ground line is shorter and wider to the system ground. Input Signal Power supply Vcc Signal Device to be protected Output Current flow at ESD GND Current flow at ESD How the ESD protector chip works? 2. RF input lines To install a protection device on RF signal lines, low capacitance is necessary. IRISO s ESD protector chip is well suitable for RF input lines such as FM-AM antenna, TV antenna, GPS antenna and so on. Especially car antennas are often exposed to threat of ESD. Recently, requirements of ESD testing level with car manufacturers have become more high and difficult. Not only 681-1B but also 683-1A is best suited to car antenna applications because of the high-reliability of ESD pulse withstanding. Antenna Car antenna Frontend Pre amplifier FM-AM&TV Tuner 3. High-speed Digital Interface line (TMDS or LVDS) IRISO s 683 series are also applicable to digital high-speed signal line interfaces such as IEEE1394, USB2., Gi gabit-ethernet and HDMI. 683-1A is small (1.x.5) in size and the capacitance is lower than other items. Data 4- Data 4+ Data 3- Data 3+ Data 2- Data 2+ Data 1- Data 1+ HDMI Receiver GND 683-1A HDMI TMDS Lines May 21 IRISO ELECTRONICS CO., LTD. 5/6
IMSA-683-1A Memo NOTICE - Specifications and characteristics described or contained in this document are the performance under the conditions of IRISO Electronics, and are not guarantees of the performance implemented in the customer s conditions. - Information described or contained herein is believed to be accurate and reliable. However IRISO Electronics assumes no responsibility for the consequences of use of such information nor for any infringement of patents or other rights of third parties which may result form its use. - These products are not authorized for use as critical components in life support devices or systems without express written approval of IRISO Electronics. - If any of these products described in this document are to be exported or provided to non-residents, the laws and regulations of the exporting country, especially, those with regard to security export control, must be observed. - No part of this document may be copied, reproduced or transmitted in any form or by any means without the prior to written permission of IRISO Electronics. - Specifications, materials and data in this document are subject to change without notice due to product improvements or other reasons. 21 IRISO Electronics CO., LTD Printed in Japan All Rights Reserved USA Singapore Germany Hong Kong China 6/6 May 21 IRISO ELECTRONICS CO., LTD.